/*
   +----------------------------------------------------------------------+
   | HipHop for PHP                                                       |
   +----------------------------------------------------------------------+
   | Copyright (c) 2010-2015 Facebook, Inc. (http://www.facebook.com)     |
   +----------------------------------------------------------------------+
   | This source file is subject to version 3.01 of the PHP license,      |
   | that is bundled with this package in the file LICENSE, and is        |
   | available through the world-wide-web at the following url:           |
   | http://www.php.net/license/3_01.txt                                  |
   | If you did not receive a copy of the PHP license and are unable to   |
   | obtain it through the world-wide-web, please send a note to          |
   | license@php.net so we can mail you a copy immediately.               |
   +----------------------------------------------------------------------+
*/

namespace HPHP {
///////////////////////////////////////////////////////////////////////////////

template <class TraitMethod,
          class Ops,
          class String,
          class StringHash,
          class StringEq>
inline void
TraitMethodImportData<TraitMethod, Ops, String, StringHash, StringEq>
::add(const TraitMethod& tm, const String& name) {
  if (Ops::exclude(name)) return;

  bool found = m_dataForName.count(name);

  m_dataForName[name].methods.push_back(tm);
  if (!found) m_orderedNames.push_back(name);
}

template <class TraitMethod,
          class Ops,
          class String,
          class StringHash,
          class StringEq>
inline void
TraitMethodImportData<TraitMethod, Ops, String, StringHash, StringEq>
::add(const TraitMethod& tm,
      const String& aliasedName,
      const String& origName) {
  if (Ops::exclude(aliasedName)) return;

  add(tm, aliasedName);

  assert(m_dataForName.count(origName));
  m_dataForName[origName].aliases.push_back(aliasedName);
}

template <class TraitMethod,
          class Ops,
          class String,
          class StringHash,
          class StringEq>
inline void
TraitMethodImportData<TraitMethod, Ops, String, StringHash, StringEq>
::erase(const String& name) {
  // We don't bother erasing `name' from any name lists---since it will not
  // correspond to any NameData, it will be skipped during finalization anyway.
  m_dataForName.erase(name);
}

template <class TraitMethod,
          class Ops,
          class String,
          class StringHash,
          class StringEq>
inline void
TraitMethodImportData<TraitMethod, Ops, String, StringHash, StringEq>
::setModifiers(const String& name,
               typename TraitMethod::class_type trait,
               typename TraitMethod::modifiers_type mods) {
  auto& methods = m_dataForName[name].methods;

  for (auto& tm : methods) {
    if (tm.trait == trait) {
      tm.modifiers = mods;
      return;
    }
  }
}

///////////////////////////////////////////////////////////////////////////////

template <class TraitMethod,
          class Ops,
          class String,
          class StringHash,
          class StringEq>
inline void
TraitMethodImportData<TraitMethod, Ops, String, StringHash, StringEq>
::applyPrecRule(typename Ops::prec_type rule) {
  auto methName          = Ops::precMethodName(rule);
  auto selectedTraitName = Ops::precSelectedTraitName(rule);
  auto otherTraitNames   = Ops::precOtherTraitNames(rule);

  auto it = m_dataForName.find(methName);
  if (it == m_dataForName.end()) {
    Ops::errorUnknownMethod(rule);
    return;
  }

  bool foundSelectedTrait = false;
  auto& methods = it->second.methods;

  for (auto next = methods.begin(); next != methods.end(); ) {
    auto cur = next++;
    auto availTraitName = Ops::clsName(cur->trait);

    if (availTraitName == selectedTraitName) {
      foundSelectedTrait = true;
    } else if (otherTraitNames.count(availTraitName)) {
      otherTraitNames.erase(availTraitName);
      methods.erase(cur);
    }
  }

  if (!foundSelectedTrait) {
    Ops::errorUnknownTrait(rule, selectedTraitName);
  }
  if (otherTraitNames.size()) {
    Ops::errorUnknownTrait(rule, *otherTraitNames.begin());
  }
}

template <class TraitMethod,
          class Ops,
          class String,
          class StringHash,
          class StringEq>
template <class Context>
inline void
TraitMethodImportData<TraitMethod, Ops, String, StringHash, StringEq>
::applyAliasRule(typename Ops::alias_type rule, Context ctx) {
  auto traitName    = Ops::aliasTraitName(rule);
  auto origMethName = Ops::aliasOrigMethodName(rule);
  auto newMethName  = Ops::aliasNewMethodName(rule);
  auto modifiers    = Ops::aliasModifiers(rule);

  typename TraitMethod::class_type traitCls;
  if (Ops::strEmpty(traitName)) {
    traitCls = Ops::findSingleTraitWithMethod(ctx, origMethName);
  } else {
    traitCls = Ops::findTraitClass(ctx, traitName);
  }

  if (!traitCls || !Ops::isTrait(traitCls)) {
    Ops::errorUnknownTrait(rule, traitName);
  }

  Ops::addTraitAlias(ctx, rule, traitCls);

  auto traitMeth = Ops::findTraitMethod(ctx, traitCls, origMethName);
  if (!traitMeth) {
    Ops::errorUnknownMethod(rule, origMethName);
  }

  if (origMethName == newMethName) {
    setModifiers(origMethName, traitCls, modifiers);
  } else {
    add(Ops::traitMethod(traitCls, traitMeth, rule),
        newMethName, origMethName);
  }
}

/*
 * Remove trait abstract methods that are either (a) implemented by other
 * traits, or (b) duplicated.
 */
template <class TraitMethod,
          class Ops,
          class String,
          class StringHash,
          class StringEq>
inline void
TraitMethodImportData<TraitMethod, Ops, String, StringHash, StringEq>
::removeSpareTraitAbstractMethods() {
  for (auto& nameData : m_dataForName) {
    auto& methods = nameData.second.methods;

    bool hasNonAbstractMeth = false;
    unsigned numAbstractMeths = 0;

    for (auto const& tm : methods) {
      if (!Ops::isAbstract(tm.modifiers)) {
        hasNonAbstractMeth = true;
      } else {
        ++numAbstractMeths;
      }
    }

    if (hasNonAbstractMeth || numAbstractMeths > 1) {
      bool firstAbstractMeth = true;

      // Erase spare abstract declarations.
      for (auto next = methods.begin(); next != methods.end(); ) {
        auto cur = next++;

        if (Ops::isAbstract(cur->modifiers)) {
          if (hasNonAbstractMeth || !firstAbstractMeth) {
            methods.erase(cur);
          }
          firstAbstractMeth = false;
        }
      }
    }
  }
}

template <class TraitMethod,
          class Ops,
          class String,
          class StringHash,
          class StringEq>
template <class Context>
inline std::vector<typename TraitMethodImportData<TraitMethod,
                                                  Ops,
                                                  String,
                                                  StringHash,
                                                  StringEq>::MethodData>
TraitMethodImportData<TraitMethod, Ops, String, StringHash, StringEq>
::finish(Context ctx) {
  removeSpareTraitAbstractMethods();

  std::unordered_set<String> seenNames;
  std::vector<MethodData> output;

  seenNames.reserve(m_orderedNames.size());
  output.reserve(m_orderedNames.size());

  auto process = [&] (const String& name) {
    if (seenNames.count(name)) return;
    auto const& methods = m_dataForName[name].methods;

    // The rules eliminated this method from all traits.
    if (methods.size() == 0) return;

    if (methods.size() > 1) {
      // This may or may not actually throw; if it doesn't, the client is okay
      // with the duplication.
      Ops::errorDuplicateMethod(ctx, name);
    }

    seenNames.insert(name);
    output.push_back(MethodData { name, *methods.begin() });
  };

  for (auto const& name : m_orderedNames) {
    auto const& nameData = m_dataForName[name];

    // Aliases of a given method name are always ordered immediately before
    // that name (in the order the aliases were declared in), even if
    // precedence rules override them.
    for (auto const& alias : nameData.aliases) {
      process(alias);
    }
    process(name);
  }

  return output;
}

///////////////////////////////////////////////////////////////////////////////
}
